DE10054501A1 - Cable entry gland has cable core ends terminating in blind holes in contact pins - Google Patents

Abstract

Contact pins (11) are inserted on the core ends (6) so that the ends project into blind holes in the pins, and crimping sleeves (17) are positioned. Pins and leads are then threaded through holes in a washer (14), a spacer piece (16) is inserted between the cores and crimping performed. A bush (7) is then molded around the insulated leads to hold them and the spacer together. This assembly after insertion through a flexible sealing plug (12) is then inserted into the entry hole (2) in the device case.

Description

The invention relates to a cable entry with a Through opening of a housing penetrating at least two Cable with wires to create an electrical connection between the inside and outside of the housing, being on the Through hole sealed against the cable and the housing Spout or the like sealing element is arranged over which the End areas of the wires protrude on the inside of the housing, the free ones Stripped ends of these end areas and the exposed conductor ends the wires are electrically connected with contact pins, the separation points between the sheathing the veins Insulations and the contact pins through a sealing plug are bridged, the on the wire insulation, the contact pins and the housing wall area delimiting the through opening sealing against the restoring force of its elastic material abuts, and wherein the free end regions of the contact pins Project over the sealing plug on the inside of the housing.

Such a cable entry for a housing of a gas sensor is known from DE 94 10 070 U1. The cable entry shows one an elastomeric sealing element and one made of Teflon existing sealing plug, which in the through hole of  Housing are arranged one above the other. The sealing element and the Sealing plugs each have one of the number of wires in the cable corresponding number of through holes through which the wires of the connecting cable are straight through. At their free The ends of the wires are stripped and connected with crimp sleeves. The Separation points between the crimp sleeves and each of them adjacent insulation sheaths of the wires are inside the seal arranged and are bridged by this. Protrude the free ends of the crimp sleeves from the inside of the housing Sealing plugs out and there are connecting parts for contact tion of the gas sensor. When installing the cable entry the sealing element and the sealing plug with which the passage Caulked opening surrounding metallic housing wall area, the diameters of the through holes narrow, so that the insulating jacket of the wires from the sealing element and at the same time the crimp sleeves are tightly enclosed by the sealing plug. The Cable entry has the disadvantage, however, that moisture or the same media, for example on the of the crimp sleeves distal ends of the wires or if the cable is damaged can penetrate into the veins elsewhere Capillary action in the veins right into the interior of the housing can spread. This is particularly possible if the veins are designed as strands with a flexible wire mesh. The Moisture can then escape from the veins on the crimp sleeves and in the housing short-circuit or Greek current bridges between form the conductors of the veins. In addition, the moisture can in the housing, connected to the cable electrical or electronic components come into contact and lead to malfunctions there. The cable entry therefore shows if the cable is exposed to moisture, only a comparison have poor reliability.

There is therefore the task of a cable entry at the beginning to create a good seal of the housing inner against the ingress of moisture or the like  Media enabled.

The solution to this problem is that the contact pins for tightly enclosing the conductor ends Have blind holes, and that from the contact pins back of the sealing plug with a strain relief at least one coupling the housing wall and the wires together Holding element is arranged for decoupling the movement from outside movements of the cable occurring relative to the housing Housing from the end areas guided inside the sealing plug of the veins.

Since the contact pins seal the conductors of the wires, If there is any leakage in the veins Avoid moisture at the free ends of the contact pins. Due to the strain relief with motion decoupling, the inside of the sealing plug and the end areas of the wires arranged contact pins when pulling, Pressure and / or bending stress immobilized. By the front the sealing plug arranged strain relief is also the Largely transfer of cable forces to the sealing plug avoided. The the separation point between the insulation of the wires and sealing plugs bridging the contact pins a good and permanent seal of the separation points, so that too between the insulating sleeves of the wires and the contact pins Leakage from in the conductors and / or between the conductors and the Insulation of the veins of moisture present reliably is prevented. Overall, this results in a good seal of the interior of the housing against the ingress of, in particular, inside the insulating sheaths of the moisture present.

It is particularly advantageous if the holding element is at least one Perforated disk part, one for each wire Through holes with the appropriate diameter for the wire Has cross section and if the perforated disc part is preferred  is supported against the housing. This will make an exact Positioning of the end areas inside the sealing plug the wires and the associated contact pins. In particular, relative movement will occur when the cable is subjected to bending stress between the end areas inside the sealing plug the veins largely avoided, making an even better one Sealing of the sealing plug on the one hand against the contact pins and the adjacent insulation of the wires and on the other hand but also against the housing wall delimiting the through opening is achieved.

Relative movements between those guided inside the sealing plug End areas of the wires and the contact pins can also be used avoided that the holding element a spacer for the veins that the spacer and the outside sections of the wires attached to it by a crimp sleeve or the same boundary element are delimited that the clear width between the spacer and the boundary element so on the Cross-sectional dimensions of the cores are matched so that each one on the spacer and the boundary element to the system come, and that the spacer and / or the boundary element are supported against the housing.

It is particularly advantageous if the spacer is preferred is integrally connected to the perforated disc part and if the Through holes for the veins are relative to the An locations of the wires are arranged on the spacer that a course of the veins deviating from a straight line results. The wires are then deflected on the holding element, whereby Especially tensile, compressive and bending forces occurring on the wires well against the Ge against the holding element attacking the veins can be supported.

In a preferred embodiment of the invention is pre see that the spout or the sealing element made of plastic or  the same injection molding material, and that the holding element is at least partially overmolded with this injection molding material. This advantageously results in a tight and mechanical stable connection on the one hand between the cable grommet and the cable or their veins and on the other hand between the (the) Holding element (s) and the spout. The sealing plug and the ones inside guided end areas of the veins are then even better immobilized, whereby a correspondingly good seal on the sealing plug Cores with each other and against the housing wall is reached.

Between the grommet or the sealing element and the through hole a housing, a sealing ring, be provided, preferably in one on the outer circumference of the spout and / or in the housing border surrounding the through opening Wall area located annular groove is arranged. The The cable grommet is therefore well sealed against the housing. Moreover the grommet can be used in the manufacture of the cable entry easy to mount in the housing opening.

It is advantageous if the sealing plug on at least one of its End faces an indentation laterally spaced from the housing or has recess, which is preferably approximately in the middle between the veins is arranged. The pressure forces of the elastic The material of the sealing plug can then be particularly uniform all sides on the contact pins, the insulation of the wires and the housing wall are transferred. When inserting the sealing plug in the through opening of the housing, the sealing plug material if necessary, dodge into the recess or recess.

In an advantageous embodiment of the invention, the Sealing plug on its outer circumference at least one in circumference direction circumferential sealing lip or a sealing bead. Thereby will seal the sealing plug against the housing even better allows.  

In an expedient embodiment of the invention, the Outer lateral surface of the contact pins with the outer jacket area of the adjacent insulation of the wire. The cable entry then enables particularly simple assembly.

Below is an embodiment of the invention based on the Drawing explained in more detail. Show it:

Fig. 1 shows a partial longitudinal section through a cable entry, the cable and the housing are only partially shown, and

Fig. 2 is a plan view of the cross-sectional plane labeled A in Fig. 1 of the cable entry.

A cable entry, designated as a whole by 1, has a cable 4 , which has a through opening of a housing 3 and has a plurality of wires, each of which has an electrical conductor 6 encased in insulation 5 . The cable 4 is intended to provide an electrical connection between the inside of the housing 3 , not shown in the drawing electrical or electronic components and outside of the Ge electrical equipment. The electrical components arranged in the interior of the housing 3 can comprise, for example, a sensor and / or an electronic circuit for controlling the sensor and / or for processing a measurement signal from the sensor.

In Fig. 1 it is seen that a spout 7 is arranged in the through hole 2, and on the other hand is sealed against the housing 3 on the one hand against the cable 4. The grommet 7 has an approximately cylindrical housing section which engages in the matching cylindrical through opening 2 of the housing 3 . At its end area facing away from the housing 3 , the grommet is tightly connected to the outer jacket 8 of the cable 4 . The outer jacket 8 of the cable 4 extends into the interior of the grommet 7 .

7 on its outer periphery, the spout an annular groove, into which a sealing ring 9 engages, which with its inside to the spout 7 and with its outer side on which the passage opening 2 bounding housing wall portion bears sealingly.

On its outside, the housing 3 has an annular collar-like housing region 10 , which is flanged towards the cable 4 and which engages behind the grommet 7 in a form-fitting manner.

In Fig. 1 it can be seen that the end regions of the wires with the conductors 6 and the insulation 5 encasing them protrude on the inside over the grommet 7 and that the free ends of the conductors 6 are stripped. The exposed conductor ends are electrically conductively connected to contact pins 11 . For this purpose, the contact pins 11 have blind holes, shown in broken lines in FIG. 1, which accommodate the conductor ends. The contact pin region which respectively delimits the blind holes can be caulked to the conductor end, for example. The contact pins 11 preferably connect flush to the insulation 5 . The outer diameter of the contact pins 11 corresponds approximately to that of the insulation 5 , that is, the outer surface of the contact pins continues the outer surface of the adjacent insulation in a straight extension.

In Fig. 1 it can be seen that the separation points between the insulation 5 and the contact pins 11 are bridged by a sealing plug 12 , the area of the insulation 5 , the contact pins 11 and the through opening 2 surrounding the housing wall against the restoring force of its elastic material fits tightly. This can be achieved, for example who is that the cross-sectional dimensions of the sealing plug disposed in pre-assembly position are slightly larger than the internal cross-sectional dimensions of the through hole 2, and that the sealing plug is pressed during assembly of the cable entry 1 in the through hole 2 12 to. In a corresponding manner, the cross-sectional dimensions of the wires and / or the contact pins 11 can also be selected to be somewhat larger than the through holes provided in the sealing plug 12 . The free end regions of the contact pins 11 project beyond the sealing plug 12 on the inside of the housing and are connected there to the electrical or electronic components (not shown).

At the contact pins 11 back of the sealing plug 12 facing away is provided a strain relief comprising a housing 3 and the wires rigidly coupling the support member 13 for movement decoupling from outside the housing 3 between the latter and the cable 4 movements occurring from the inside of the sealing plug 12 has guided end areas of the veins. Through the strain relief relative movements are pins between the contact 11, and between the contact pins 11 and the housing 3 on the other hand largely avoided.

The contact pins 11 , the sealing plug 12 and the insulation 5 seal the conductor 6 against each other and against the interior of the housing 3 , so that in the event that, for example, due to a defect in the cable, moisture comes into contact with one of the conductors 6 and itself Should spread along the conductor to the contact pins 11 , escape of moisture at the separation point between the contact pin 11 of the conductor concerned and the insulation 5 and / or at the contact pins 11 is avoided. This in particular reduces the risk of the formation of electrically conductive moisture bridges between the conductors 6 .

The holding element 13 has a perforated disc part 14 , which has a through-hole for each wire with a cross section matching the diameter of the wire. In Fig. 2 it can be seen that the through holes are arranged approximately symmetrically to the longitudinal central axis 15 of the through opening 2 of the housing 3 and are spaced approximately the same distance from the longitudinal central axis. The perforated disc part 14 is supported on its outer circumference transversely to the direction of extension of the cable 4 against the housing wall area delimiting the through opening 2 .

The perforated disc part 14 is integrally connected to a spacer 16 for the wires, which is arranged in an intermediate space formed between the wires. The spacer 16 engages in the inner cavity of a crimp sleeve 17 , which encloses the spacer 16 and the wire sections of the cable 4 passed between it and the crimp sleeve 17 . The crimp sleeve 17 is squeezed together during assembly of the cable entry by means of crimping pliers or similar tools in such a way that the wires are clamped between the crimp sleeve 17 and the spacer 16 and are fixed in their position relative to the housing 3 .

As can be seen in Fig. 1, the through holes of the perforated disc part 14 are arranged with their central axes approximately parallel to the longitudinal central axis 15 of the through opening 2 of the housing 3 and so offset relative to the contact points of the wires on the spacer 16 in the radial direction that a deviating from a straight line, such as S or wave-shaped course of the veins on the holding part 13 results. The holding part 13 and / or the crimp sleeve 17 preferably consist of a metallic material, for example of brass. The strain relief thus enables good support of forces acting on the cable 4 against the housing 3 .

In the manufacture of the cable entry 1 , the contact pins 11 are first mounted on the stripped ends of the wires and the crimp sleeves 17 are pushed onto the wire ends to be inserted into the housing 3 . The contact pins 11 and the wire ends are then threaded through the perforations in the perforated disk 14 and the spacer 16 is inserted into the crimp sleeve 17 . Then the crimp sleeve 17 is pressed together with the crimping tool. The cable end preassembled in this way is then introduced into a molding tool, in which it is extrusion-coated or molded in order to form the grommet. The plastic flows around the crimp sleeve 17 and the spacer 16 . After the plastic has hardened, the cable end is removed from the mold and the prefabricated sealing plug 12 , preferably made of rubber or similar elastic sealing material, is pushed onto the free wire ends until it comes into contact with the perforated disk part 14 . The cable end is then pressed into the through opening 2 , the sealing plug 12 being elastically deformed. To axially fix the spout 7 in the through opening 2 , the collar-shaped housing area 10 is flanged.

As can be seen particularly well in FIG. 1, the sealing plug 12 has on its end faces a laterally spaced recess 18 formed as a blind hole from the housing 3 and the contact pins 11 , which is arranged approximately centrally between the contact pins 11 or the wires. The elastic stopper material can escape into this recess when the sealing stopper 12 is pressed into the through opening 2 .

The sealing plug 12 has on its outer circumference a plurality of sealing lips 19 which are arranged next to one another and each run in the circumferential direction.

A cable entry 1 with a cable 4 passing through a through opening 2 of a housing 3 and having at least two wires has at the through opening 2 a grommet 7 or similar sealing element which is sealed off against the cable 4 and the housing 3 and over which the end regions of the wires project on the inside of the housing. The free ends of these end regions are stripped and electrically connected to contact pins 11 . The separation points between the insulation 5 encasing the wires and the contact pins are bridged by a sealing plug 12 , which rests elastically on the wire insulation 5 , the contact pins 11 and the housing wall area surrounding the through opening 2 . The free end regions of the contact pins 11 project beyond the sealing plug 12 on the inside of the housing. The contact pins 11 have blind holes for receiving the conductor ends. On the contact pins 11 facing away from the rear side of the sealing plug 12 , a strain relief with at least one holding element 13 coupling the housing wall and the wires to one another is arranged for decoupling the movements of the cable 4 occurring outside the housing 3 from the inner regions of the sealing plug 12 guided end regions of the veins.

Claims (9)

1. Cable entry ( 1 ) with a through opening ( 2 ) of a housing ( 3 ) passing through, at least two wires having cables ( 4 ) to create an electrical connection between the inside and outside of the housing ( 3 ), with the through opening ( 2 ) a grommet ( 7 ) or similar sealing element, which is sealed against the cable ( 4 ) and the housing ( 3 ), is arranged over which the end regions of the wires protrude on the inside, the free ends of these end regions being stripped and the exposed conductor ends of the wires with contact pins ( 11 ) are electrically conductively connected, the separation points between the sheaths of the insulation ( 5 ) and the contact pins are bridged by a sealing plug ( 12 ), the gene on the wire insulation ( 5 ), the contact pins ( 11 ) and sealing the housing wall area surrounding the through-opening ( 2 ) against the restoring force of its elastic material and where the free end regions of the contact pins ( 11 ) protrude on the inside over the sealing plug ( 12 ), characterized in that the contact pins ( 11 ) have sealing blind holes for tightly enclosing the conductor ends, and that on the contact pins ( 11 ) facing away from the back of the sealing plug ( 12 ) a strain relief is arranged with at least one holding element ( 13 ) coupling the housing wall and the wires, for decoupling movements of movements of the cable ( 4 ) occurring outside the housing ( 3 ) relative to the housing ( 3 ) from the end areas of the wires guided inside the sealing plug ( 12 ). 2. Cable entry ( 1 ) according to claim 1, characterized in that the holding element ( 13 ) has at least one perforated disc part ( 14 ) which has a through-hole for each wire with a cross-section matching the diameter of the wire and that the perforated disk part ( 14 ) is preferably supported against the housing ( 3 ). 3. Cable entry ( 1 ) according to claim 1 or 2, characterized in that the holding element ( 13 ) has a spacer ( 16 ) for the wires, that the spacer ( 16 ) and the portions of the wires lying on the outside thereof by a crimp sleeve ( 17 ) or similar boundary element are delimited that the clear width between the spacer ( 16 ) and the delimiting element are matched to the cross-sectional dimensions of the wires so that they come to rest on the spacer ( 16 ) and the delimiting element, and that Spacers ( 16 ) and / or the boundary element are supported against the housing ( 13 ). 4. Cable entry ( 1 ) according to one of claims 1 to 3, characterized in that the spacer ( 16 ) is preferably integrally connected to the perforated disc part ( 14 ) and in that the through holes for the wires are relative to the contact points of the wires on the spacer ( 16 ) are arranged in such a way that in the area of the holding element ( 13 ) there results a course of the wires deviating from a straight line. 5. Cable entry ( 1 ) according to one of claims 1 to 4, characterized in that the spout ( 7 ) or the sealing element consists of plastic or the like injection molding material, and that the holding element ( 13 ) is at least partially overmolded with this injection molding material. 6. Cable entry ( 1 ) according to one of claims 1 to 5, characterized in that a sealing ring ( 9 ) is provided between the grommet ( 7 ) or the sealing element and the housing wall area surrounding the through opening ( 2 ), which is preferably in an annular groove is arranged on the outer circumference of the grommet ( 7 ) and / or in the housing wall area surrounding the through opening ( 2 ). 7. Cable entry ( 1 ) according to one of claims 1 to 6, characterized in that the sealing plug ( 12 ) on at least one of its end faces from the housing ( 3 ) be laterally spaced recess ( 18 ) or recess, which is preferably approximately in the middle pins ( 11 ) is arranged between the wires or the contact. 8. Cable entry ( 1 ) according to one of claims 1 to 7, characterized in that the sealing plug ( 12 ) has on its outer circumference at least one circumferential sealing lip ( 19 ) or a sealing bead. 9. Cable entry ( 1 ) according to one of claims 1 to 8, characterized in that the outer lateral surface of the contact pins ( 11 ) is aligned with the outer lateral surface of the adjacent insulation ( 5 ) of the wire.